Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Todd Android Poynor | 1119 | 58.25% | 6 | 50.00% |
Simon Que | 783 | 40.76% | 1 | 8.33% |
Kimberly Brown | 13 | 0.68% | 1 | 8.33% |
Greg Kroah-Hartman | 2 | 0.10% | 2 | 16.67% |
Sanjana Sanikommu | 2 | 0.10% | 1 | 8.33% |
Kees Cook | 2 | 0.10% | 1 | 8.33% |
Total | 1921 | 12 |
// SPDX-License-Identifier: GPL-2.0 /* Copyright (C) 2018 Google, Inc. */ #include "gasket_interrupt.h" #include "gasket_constants.h" #include "gasket_core.h" #include "gasket_sysfs.h" #include <linux/device.h> #include <linux/interrupt.h> #include <linux/printk.h> #ifdef GASKET_KERNEL_TRACE_SUPPORT #define CREATE_TRACE_POINTS #include <trace/events/gasket_interrupt.h> #else #define trace_gasket_interrupt_event(x, ...) #endif /* Retry attempts if the requested number of interrupts aren't available. */ #define MSIX_RETRY_COUNT 3 /* Instance interrupt management data. */ struct gasket_interrupt_data { /* The name associated with this interrupt data. */ const char *name; /* Interrupt type. See gasket_interrupt_type in gasket_core.h */ int type; /* The PCI device [if any] associated with the owning device. */ struct pci_dev *pci_dev; /* Set to 1 if MSI-X has successfully been configred, 0 otherwise. */ int msix_configured; /* The number of interrupts requested by the owning device. */ int num_interrupts; /* A pointer to the interrupt descriptor struct for this device. */ const struct gasket_interrupt_desc *interrupts; /* The index of the bar into which interrupts should be mapped. */ int interrupt_bar_index; /* The width of a single interrupt in a packed interrupt register. */ int pack_width; /* * Design-wise, these elements should be bundled together, but * pci_enable_msix's interface requires that they be managed * individually (requires array of struct msix_entry). */ /* The number of successfully configured interrupts. */ int num_configured; /* The MSI-X data for each requested/configured interrupt. */ struct msix_entry *msix_entries; /* The eventfd "callback" data for each interrupt. */ struct eventfd_ctx **eventfd_ctxs; /* The number of times each interrupt has been called. */ ulong *interrupt_counts; /* Linux IRQ number. */ int irq; }; /* Structures to display interrupt counts in sysfs. */ enum interrupt_sysfs_attribute_type { ATTR_INTERRUPT_COUNTS, }; /* Set up device registers for interrupt handling. */ static void gasket_interrupt_setup(struct gasket_dev *gasket_dev) { int i; int pack_shift; ulong mask; ulong value; struct gasket_interrupt_data *interrupt_data = gasket_dev->interrupt_data; if (!interrupt_data) { dev_dbg(gasket_dev->dev, "Interrupt data is not initialized\n"); return; } dev_dbg(gasket_dev->dev, "Running interrupt setup\n"); /* Setup the MSIX table. */ for (i = 0; i < interrupt_data->num_interrupts; i++) { /* * If the interrupt is not packed, we can write the index into * the register directly. If not, we need to deal with a read- * modify-write and shift based on the packing index. */ dev_dbg(gasket_dev->dev, "Setting up interrupt index %d with index 0x%llx and packing %d\n", interrupt_data->interrupts[i].index, interrupt_data->interrupts[i].reg, interrupt_data->interrupts[i].packing); if (interrupt_data->interrupts[i].packing == UNPACKED) { value = interrupt_data->interrupts[i].index; } else { switch (interrupt_data->interrupts[i].packing) { case PACK_0: pack_shift = 0; break; case PACK_1: pack_shift = interrupt_data->pack_width; break; case PACK_2: pack_shift = 2 * interrupt_data->pack_width; break; case PACK_3: pack_shift = 3 * interrupt_data->pack_width; break; default: dev_dbg(gasket_dev->dev, "Found interrupt description with unknown enum %d\n", interrupt_data->interrupts[i].packing); return; } mask = ~(0xFFFF << pack_shift); value = gasket_dev_read_64(gasket_dev, interrupt_data->interrupt_bar_index, interrupt_data->interrupts[i].reg); value &= mask; value |= interrupt_data->interrupts[i].index << pack_shift; } gasket_dev_write_64(gasket_dev, value, interrupt_data->interrupt_bar_index, interrupt_data->interrupts[i].reg); } } static void gasket_handle_interrupt(struct gasket_interrupt_data *interrupt_data, int interrupt_index) { struct eventfd_ctx *ctx; trace_gasket_interrupt_event(interrupt_data->name, interrupt_index); ctx = interrupt_data->eventfd_ctxs[interrupt_index]; if (ctx) eventfd_signal(ctx, 1); ++(interrupt_data->interrupt_counts[interrupt_index]); } static irqreturn_t gasket_msix_interrupt_handler(int irq, void *dev_id) { struct gasket_interrupt_data *interrupt_data = dev_id; int interrupt = -1; int i; /* If this linear lookup is a problem, we can maintain a map/hash. */ for (i = 0; i < interrupt_data->num_interrupts; i++) { if (interrupt_data->msix_entries[i].vector == irq) { interrupt = interrupt_data->msix_entries[i].entry; break; } } if (interrupt == -1) { pr_err("Received unknown irq %d\n", irq); return IRQ_HANDLED; } gasket_handle_interrupt(interrupt_data, interrupt); return IRQ_HANDLED; } static int gasket_interrupt_msix_init(struct gasket_interrupt_data *interrupt_data) { int ret = 1; int i; interrupt_data->msix_entries = kcalloc(interrupt_data->num_interrupts, sizeof(*interrupt_data->msix_entries), GFP_KERNEL); if (!interrupt_data->msix_entries) return -ENOMEM; for (i = 0; i < interrupt_data->num_interrupts; i++) { interrupt_data->msix_entries[i].entry = i; interrupt_data->msix_entries[i].vector = 0; interrupt_data->eventfd_ctxs[i] = NULL; } /* Retry MSIX_RETRY_COUNT times if not enough IRQs are available. */ for (i = 0; i < MSIX_RETRY_COUNT && ret > 0; i++) ret = pci_enable_msix_exact(interrupt_data->pci_dev, interrupt_data->msix_entries, interrupt_data->num_interrupts); if (ret) return ret > 0 ? -EBUSY : ret; interrupt_data->msix_configured = 1; for (i = 0; i < interrupt_data->num_interrupts; i++) { ret = request_irq(interrupt_data->msix_entries[i].vector, gasket_msix_interrupt_handler, 0, interrupt_data->name, interrupt_data); if (ret) { dev_err(&interrupt_data->pci_dev->dev, "Cannot get IRQ for interrupt %d, vector %d; " "%d\n", i, interrupt_data->msix_entries[i].vector, ret); return ret; } interrupt_data->num_configured++; } return 0; } /* * On QCM DragonBoard, we exit gasket_interrupt_msix_init() and kernel interrupt * setup code with MSIX vectors masked. This is wrong because nothing else in * the driver will normally touch the MSIX vectors. * * As a temporary hack, force unmasking there. * * TODO: Figure out why QCM kernel doesn't unmask the MSIX vectors, after * gasket_interrupt_msix_init(), and remove this code. */ static void force_msix_interrupt_unmasking(struct gasket_dev *gasket_dev) { int i; #define MSIX_VECTOR_SIZE 16 #define MSIX_MASK_BIT_OFFSET 12 #define APEX_BAR2_REG_KERNEL_HIB_MSIX_TABLE 0x46800 for (i = 0; i < gasket_dev->interrupt_data->num_configured; i++) { /* Check if the MSIX vector is unmasked */ ulong location = APEX_BAR2_REG_KERNEL_HIB_MSIX_TABLE + MSIX_MASK_BIT_OFFSET + i * MSIX_VECTOR_SIZE; u32 mask = gasket_dev_read_32(gasket_dev, gasket_dev->interrupt_data->interrupt_bar_index, location); if (!(mask & 1)) continue; /* Unmask the msix vector (clear 32 bits) */ gasket_dev_write_32(gasket_dev, 0, gasket_dev->interrupt_data->interrupt_bar_index, location); } #undef MSIX_VECTOR_SIZE #undef MSIX_MASK_BIT_OFFSET #undef APEX_BAR2_REG_KERNEL_HIB_MSIX_TABLE } static ssize_t interrupt_sysfs_show(struct device *device, struct device_attribute *attr, char *buf) { int i, ret; ssize_t written = 0, total_written = 0; struct gasket_interrupt_data *interrupt_data; struct gasket_dev *gasket_dev; struct gasket_sysfs_attribute *gasket_attr; enum interrupt_sysfs_attribute_type sysfs_type; gasket_dev = gasket_sysfs_get_device_data(device); if (!gasket_dev) { dev_dbg(device, "No sysfs mapping found for device\n"); return 0; } gasket_attr = gasket_sysfs_get_attr(device, attr); if (!gasket_attr) { dev_dbg(device, "No sysfs attr data found for device\n"); gasket_sysfs_put_device_data(device, gasket_dev); return 0; } sysfs_type = (enum interrupt_sysfs_attribute_type) gasket_attr->data.attr_type; interrupt_data = gasket_dev->interrupt_data; switch (sysfs_type) { case ATTR_INTERRUPT_COUNTS: for (i = 0; i < interrupt_data->num_interrupts; ++i) { written = scnprintf(buf, PAGE_SIZE - total_written, "0x%02x: %ld\n", i, interrupt_data->interrupt_counts[i]); total_written += written; buf += written; } ret = total_written; break; default: dev_dbg(gasket_dev->dev, "Unknown attribute: %s\n", attr->attr.name); ret = 0; break; } gasket_sysfs_put_attr(device, gasket_attr); gasket_sysfs_put_device_data(device, gasket_dev); return ret; } static struct gasket_sysfs_attribute interrupt_sysfs_attrs[] = { GASKET_SYSFS_RO(interrupt_counts, interrupt_sysfs_show, ATTR_INTERRUPT_COUNTS), GASKET_END_OF_ATTR_ARRAY, }; int gasket_interrupt_init(struct gasket_dev *gasket_dev) { int ret; struct gasket_interrupt_data *interrupt_data; const struct gasket_driver_desc *driver_desc = gasket_get_driver_desc(gasket_dev); interrupt_data = kzalloc(sizeof(*interrupt_data), GFP_KERNEL); if (!interrupt_data) return -ENOMEM; gasket_dev->interrupt_data = interrupt_data; interrupt_data->name = driver_desc->name; interrupt_data->type = driver_desc->interrupt_type; interrupt_data->pci_dev = gasket_dev->pci_dev; interrupt_data->num_interrupts = driver_desc->num_interrupts; interrupt_data->interrupts = driver_desc->interrupts; interrupt_data->interrupt_bar_index = driver_desc->interrupt_bar_index; interrupt_data->pack_width = driver_desc->interrupt_pack_width; interrupt_data->num_configured = 0; interrupt_data->eventfd_ctxs = kcalloc(driver_desc->num_interrupts, sizeof(*interrupt_data->eventfd_ctxs), GFP_KERNEL); if (!interrupt_data->eventfd_ctxs) { kfree(interrupt_data); return -ENOMEM; } interrupt_data->interrupt_counts = kcalloc(driver_desc->num_interrupts, sizeof(*interrupt_data->interrupt_counts), GFP_KERNEL); if (!interrupt_data->interrupt_counts) { kfree(interrupt_data->eventfd_ctxs); kfree(interrupt_data); return -ENOMEM; } switch (interrupt_data->type) { case PCI_MSIX: ret = gasket_interrupt_msix_init(interrupt_data); if (ret) break; force_msix_interrupt_unmasking(gasket_dev); break; default: ret = -EINVAL; } if (ret) { /* Failing to setup interrupts will cause the device to report * GASKET_STATUS_LAMED. But it is not fatal. */ dev_warn(gasket_dev->dev, "Couldn't initialize interrupts: %d\n", ret); return 0; } gasket_interrupt_setup(gasket_dev); gasket_sysfs_create_entries(gasket_dev->dev_info.device, interrupt_sysfs_attrs); return 0; } static void gasket_interrupt_msix_cleanup(struct gasket_interrupt_data *interrupt_data) { int i; for (i = 0; i < interrupt_data->num_configured; i++) free_irq(interrupt_data->msix_entries[i].vector, interrupt_data); interrupt_data->num_configured = 0; if (interrupt_data->msix_configured) pci_disable_msix(interrupt_data->pci_dev); interrupt_data->msix_configured = 0; kfree(interrupt_data->msix_entries); } int gasket_interrupt_reinit(struct gasket_dev *gasket_dev) { int ret; if (!gasket_dev->interrupt_data) { dev_dbg(gasket_dev->dev, "Attempted to reinit uninitialized interrupt data\n"); return -EINVAL; } switch (gasket_dev->interrupt_data->type) { case PCI_MSIX: gasket_interrupt_msix_cleanup(gasket_dev->interrupt_data); ret = gasket_interrupt_msix_init(gasket_dev->interrupt_data); if (ret) break; force_msix_interrupt_unmasking(gasket_dev); break; default: ret = -EINVAL; } if (ret) { /* Failing to setup interrupts will cause the device * to report GASKET_STATUS_LAMED, but is not fatal. */ dev_warn(gasket_dev->dev, "Couldn't reinit interrupts: %d\n", ret); return 0; } gasket_interrupt_setup(gasket_dev); return 0; } /* See gasket_interrupt.h for description. */ int gasket_interrupt_reset_counts(struct gasket_dev *gasket_dev) { dev_dbg(gasket_dev->dev, "Clearing interrupt counts\n"); memset(gasket_dev->interrupt_data->interrupt_counts, 0, gasket_dev->interrupt_data->num_interrupts * sizeof(*gasket_dev->interrupt_data->interrupt_counts)); return 0; } /* See gasket_interrupt.h for description. */ void gasket_interrupt_cleanup(struct gasket_dev *gasket_dev) { struct gasket_interrupt_data *interrupt_data = gasket_dev->interrupt_data; /* * It is possible to get an error code from gasket_interrupt_init * before interrupt_data has been allocated, so check it. */ if (!interrupt_data) return; switch (interrupt_data->type) { case PCI_MSIX: gasket_interrupt_msix_cleanup(interrupt_data); break; default: break; } kfree(interrupt_data->interrupt_counts); kfree(interrupt_data->eventfd_ctxs); kfree(interrupt_data); gasket_dev->interrupt_data = NULL; } int gasket_interrupt_system_status(struct gasket_dev *gasket_dev) { if (!gasket_dev->interrupt_data) { dev_dbg(gasket_dev->dev, "Interrupt data is null\n"); return GASKET_STATUS_DEAD; } if (gasket_dev->interrupt_data->num_configured != gasket_dev->interrupt_data->num_interrupts) { dev_dbg(gasket_dev->dev, "Not all interrupts were configured\n"); return GASKET_STATUS_LAMED; } return GASKET_STATUS_ALIVE; } int gasket_interrupt_set_eventfd(struct gasket_interrupt_data *interrupt_data, int interrupt, int event_fd) { struct eventfd_ctx *ctx = eventfd_ctx_fdget(event_fd); if (IS_ERR(ctx)) return PTR_ERR(ctx); if (interrupt < 0 || interrupt >= interrupt_data->num_interrupts) return -EINVAL; interrupt_data->eventfd_ctxs[interrupt] = ctx; return 0; } int gasket_interrupt_clear_eventfd(struct gasket_interrupt_data *interrupt_data, int interrupt) { if (interrupt < 0 || interrupt >= interrupt_data->num_interrupts) return -EINVAL; interrupt_data->eventfd_ctxs[interrupt] = NULL; return 0; }
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